Python Annotations

Not to be confused with the use of the @ symbol, which is an annotation in Kotlin but a decorator in python.

Python syntax allows for two flavours of annotations:

Introduction.

Both flavours of annotation work in the same manner.

They build a dictionary called __annotations__ which stores the list of annotations for a function, a module or a class.

It is common practice to annotate with types, such as int or str, but Python language implementation allows any valid expression. Using types can make Python look like other languages which have similar syntax and require types, and is one of the motivations for annotations in Python. Third-party tools may report expressions which are not types as errors, but Python itself currently allows any expression.

The Python dataclass now makes use of annotations.  Outside of this use, if you are not using an external type validator like mypy there seems little incentive to bother with type annotations, but  if you are going to document what type a variable should be, then annotation is the optimum solution.

The following code illustrates variable annotation at class level, module level, and local level:


>>> class Foo:

    class_var1: "Annotation"
    class_var2: "Another" + " annotation" = 3
    class_int: int

    def func(self):
        local1 : int
        local2 : undeclared_var
        self.variable : undeclared * 2 = 7
>>> module_var: Foo = Foo()

>>> module_var2: 3*2 = 7
>>> module_var3: "another" + " " + "one"
>>> Foo.__annotations__
{'class_var1': 'Annotation', 'class_var2': 'Another annotation',
'class_int':  }
>>> __annotations__
{ 'module_var': , 'module_var2': 6, 'module_var3': 'another one'}
>>> f = Foo()
>>> f.func()
>>> f.variable
7

Class Variables: The code annotates 3 identifiers at Foo scope (these identifiers, and the annotations all then appear in Foo.__annotations__. Note that only class_var2 is actually a variable and will appear in a dir() for Foo.  class_var1 and class_int appear in __annotations__ but are not actually created as variables.

Module Variables: Three module_var variables annotated at the module level, and all appear in __annotations__, and again module_var3 does not appear in globals as annotation itself does not actually create the variable, it solely creates the entry in __annotations__.  (module_var and module_var2 are assigned values, so are actual variables).

Local & Instance Variables: The func within the Foo class illustrates two local annotations, one of which uses an undeclared_var. This use of an undeclared identifier would generate an error with either class or module variables, in which case the expression is evaluated for the relevant __annotations__ dictionary. The expressions for local and instance variables annotations are not evaluated. At this stage, I have not found where, or how, the annotation data is stored.

The PEP for variable annotations is available here. Note the stated goal is to enable third party type checking utilities, even though the implementation does not restrict annotations to types. The non-goals are also very interesting.

While the practice of using annotations only with valid types might be best practice, it is worth understanding the compiler does not require this.

Function annotations: Introduced in Python 3.0 (2008)

Here is an example of function annotation:


>>> def func(p1: int, p2: "this is also an int" + " but ...") -> float:
	return p1 + p2

>>> func.__annotations__
{'p1': , 'p2': 'this is also an int but ...', 'return':  }

The expression following the ‘:‘ (colon) character (or the ‘->' symbol) is evaluated and the result stored in the __annotations__ dictionary.

The PEP is available here, but it is the fundamentals section that is the most highly recommended reading.

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